Wall insulation system

ABSTRACT

The embodiments of the invention includes a retrofitting system for the insulation of existing interior walls such as basements; a retrofitting system for the insulation of exterior walls of a structure such as a home needing further insulation without a convenient or economical method to do so within the interior walls. The insulated wall systems of those embodiments provide an economical and efficient method of providing the installation of insulation panels to each of the walls described. The insulation panels are generally of a foam structure supported by horizontal connecting and/or horizontal multi-purpose channels. The horizontal connecting channels and horizontal multi-purpose channels are of a unique design that are easily fastened to an existing wall. In addition to supporting the insulation panels, the channels are structured to provide a moisture gap between the insulation and the existing wall to which they are mounted. The horizontal connecting channels and horizontal multi-purpose channels also provide for wire chase areas for power distribution with a wall system.

CROSS REFERENCE TO RELATED APPLICATIONS

This continuation-in-part application is related to non-provisional application Ser. No. 13/208,383 filed on Aug. 12, 2011 and provisional application Ser. No. 61/434,870 filed Oct. 21, 2011 both hereby incorporated in full by reference.

FIELD OF INVENTION

The present invention is in the technical field of insulated wall systems. More particularly, the present invention relates to insulated wall systems using PVC channels for support of horizontal insulated panels on a wall.

BACKGROUND

Finished or “club” basements are a common part of residential structures. Conventional wood framing has been widely used to achieve a finished wall surface. Recently the developments of other innovative wall finishing systems have emerged. These systems are comprised of “shape-molded” insulation panels such as: In-So-Fast™; R-Retro™; Re-Fit and BuildLock™. There is a need for a system that addresses the need for full length synthetic wall channels that can easily accept readily available insulation materials. This approach will allow the unskilled novice to now easily install a finished wall system. Moreover, the locally available sourced insulation material will reduce the need to ship product long distances resulting in a reduction of “carbon footprint”. An earlier embodiment of the insulated wall system described herein used “vertical floor to ceiling panels. While this embodiment satisfied many of the advantages of a needed wall system, there was a need for less expensive and easier to install system. This earlier embodiment is describe in US Patent Publication 2012-0186178, from patent application Ser. No. 13/208,383 filed on Aug. 12, 2011 by the instant inventor and entitled “Wall Insulation System And A Method Of Installing The Same” and hereby incorporated fully herein by reference.

The presently available systems all require specially shape molded foam insulation elements, they do not create an air space for moisture protection, and/or lack electrical wire chases.

SUMMARY

The new multi-purpose design was developed to better value engineer the part while enhancing the installation process. This new design provides an approximate material savings 38% which will result in a more economical part as well as more efficient shipping.

The new design was created to allow the system to be installed in a horizontal position and to eliminate several timely steps that were present with the previous design approach which showed a vertical installation of the system. A horizontal installation eliminates the timely corner assembly that is required in a vertically installed application; it also eliminates the need for the “foam filler” in the corner. The channel profiles in a horizontal installation simply “butt-together” perpendicular at the corners. Moreover, the horizontal installation allows the foam to be removed or inserted after the channel is attached to wall surface. This feature is particularly important when addressing the need to install electrical wiring, the foam panel(s) may simply be “popped-out” to install electrical wiring and then “popped” back into place after the electrical wiring is installed. The new channel profile is designed with a “short-lip” that allows the foam panels to snap in and out of place with little effort. Also, the channel profile that was shown in the vertical assemble as a “corner channel” is now used as a “multi-purpose channel” off the concrete floor and is also used to “cap” the system at the top of the wall. More importantly, the “cap” feature of installation process creates a “thermal stop” as well as a “fire-stop” at the top edge of the last panel. The design of the “stud channel” is such that the longer base flange is where a mechanical fastener will secure the channel to the wall. If the installer tries to install the “stud channel” in an incorrect way he/she will know immediately to correct the positioning as they will not have a flange to secure a fastener through. This design feature will drastically mitigate the likelihood of subsequent channel being improperly positioned (mistake caught in the very beginning instead of the very end).

The embodiments of the invention include a system retrofitting for the insulation of existing interior walls such as basements; a system for retrofitting for the insulation of exterior walls of a structure such as a home or commercial structure needing further insulation without a convenient or an economical method to do so within a system for the inclusion of insulation. The insulated wall systems of these embodiments provide an economical and efficient method of providing the installation of insulation panels to each of the walls described. The horizontally positioned insulation panels are generally of a foam structure supported by connecting and/or horizontal multi-purpose channels.

The horizontal connecting channels and horizontal multi-purpose channels are of a unique design that are easily fastened to an existing interior or exterior wall. In addition to supporting the insulation panels, the channels are structured to provide a moisture gap between the insulation and the existing wall to which they are mounted. The horizontal connecting channel and horizontal multi-purpose channels also provide for wire chase areas for power distribution within a wall system.

Since the insulation panels are commercially available throughout the world, the major elements of the system, the connecting channels and the multi-purpose channels are made available as kits to be combined with the Insulation panels that are locally available. This makes is possible for the system to be available to home owners by purchasing the kits and combining them with the locally available Insulation panels. The installation of insulated wall system onto an existing basement interior wall or an exterior home or commercial structure wall requires no special tools and can be done by individuals with minimum construction skills.

The embodiments described below include details of the horizontal connecting channels and the horizontal multi-purpose channels and their relationship with the insulation panels; and the details of an interior wall installation.

While the horizontal connecting channels and horizontal multi-purpose channels have been designed for the embodiments described above there are likely embodiments beyond those described herein where this unique design would be applicable.

For the purpose of clarity, it will understand that all instances of the use of the terms, connecting channel, multi-purpose channel and rigid insulated foam panel will mean horizontal or vertical connecting channel, horizontal or vertical multi-purpose channel and horizontal or vertical rigid insulated foam panel unless otherwise indicated.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other features, aspects, and advantages of the present invention will become better understood with regard to the following description, appended claims, accompanying drawings where:

FIG. 1 illustrates elements of the system mounted on a three walls with: an inside corner and an outside corner; a window in a wall and door in another wall;

FIGS. 2( a) and 2(b) illustrate details of the shape and the dimensions of a connecting channel;

FIGS. 3( a) and 3(b) illustrate details of the shape and the dimensions of a connecting channel;

FIG. 4 illustrates the placement of the elements of an Insulated Wall System in the most basic configuration, one portion of a wall without and any end corners, windows or doors.

FIG. 5 illustrates the details of a connecting channel and a multi-purpose channel mounted to a wall;

FIG. 6 illustrates the placement of a first layer of multi-purpose channels as part of first step of the installation of an insulated wall system;

FIG. 7 illustrates the placement of a first layer of insulated foam panels as a second step of the installation of the insulated wall system;

FIG. 8 illustrates the placement of a first layer of connecting channels as a third step of the installation of an insulated wall system;

FIG. 9 illustrates the placement of the remaining layers of connecting channels and the corresponding layers of insulated panels as a fourth step of the installation of an insulated wall system;

FIG. 10 illustrates that the last layer of horizontal insulation panels is “capped” using a layer of multi-purpose channels which are positioned flush with the top of wall as a final step of the installation wall system;

FIGS. 11-15 illustrate the installation of a wall system insulated on a wall layout having: an inside corner, an outside corner; a window; and a door.

DETAILED DESCRIPTION

This disclosure discloses an improved insulated wall system. The system in the parent application, Ser. No. 13/106,819 ('819) entitled “Wall Insulation System and a Method Of Installing The Same” is and remains a viable option for an insulated wall system, a tilt up system and a “cast” system. Even though the '819 application may use either horizontal or vertical channel(s) for an insulated wall system a uniquely horizontal system is described herein. The '819 application is hereby is fully incorporated herein by reference. The instant application discloses an insulated wall system with a new channel/stud design that was developed to better value engineer the part while enhancing the installation process. This new design provides an approximate material savings of 38% which will result in a more economical part as well as more efficient shipping.

The instant design was created to allow the system to be installed with its primary elements to be installed in a horizontal position and to eliminate several timely steps that were present with the previous design approach which created a vertical installation of the system. A horizontal installation format eliminates the time consuming corner assembly that is required in a vertically installed application. It also eliminates the need for the “foam filler” in the corner used in the parent application design. The channel profiles in a horizontal installation simply “butt-together” perpendicularly at the corners. Moreover, the horizontal installation allows the insulating foam to be removed or inserted after the channel is attached to wall surface. This feature is particularly important when addressing the need to install electrical wiring, the insulating foam panel(s) may simply be “popped-out” to install electrical wiring and then “popped” back into place after the electrical wiring is installed. The improved channel profile is designed with a “short-lip” that allows the insulating foam panels to snap in and out of place with little effort. Also, the channel profile that was shown in the vertical assembly as a “corner channel” of the parent design is now used as a “multi-purpose channel” at the floor level and is also used to “cap” the system at the top of the wall. More importantly, the “cap” feature of the installation process creates a “thermal stop” as well as a “fire-stop” at the top edge of the last panel. The design of the “stud channel” is such that the longer base flange is where a mechanical fastener will secure the channel to the wall. If the installer tries to install the “channel/stud” in an incorrect way he/she will know immediately to correct the positioning as they will not have a flange to secure a fastener through. This design feature will drastically mitigate the likelihood of subsequent channel being improperly positioned (mistake caught in the very beginning instead of the very end).

The details of the elements of the system and installation description are described below.

FIG. 1 illustrates a wall system 100 with: three walls 102, 104 and 106; an inside corner 108 and an outside corner 110 with an insulated wall system only installed on a first wall 102 of the three connecting walls 102, 104 and 106. The second wall 104 illustrates the installation of the insulated wall system 100 around a window 112. The third wall 106 illustrates the installation of the insulated wall system 100 around a door 114. The Insulated Wall system 100 includes a plurality of connecting channels (CC) 116, a plurality of multi-purpose channels (MPC) 118 and a plurality of rigid insulation foam panels (RIFP) 120. Details of the installation process will be discussed below.

FIG. 2( a) illustrates the profile of a connecting channel 116. The functions of the connecting channel are: provide support for a pair of insulating foam panels 120; provide for a CC wire chase area 122; and provide for moisture protection of the rigid insulation foam panels 116. The elements of a connecting channel 116 include: a CC base flange 124; a CC supporting leg 126 coupled on a first end to the connecting channel base flange 124; a pair of CC interior insulation foam panels support flanges 128 and 130, each coupled to an opposite side of the support leg 126 and near the CC base flange 124; a CC exterior insulation foam panel support element 132 coupled to the support leg 126 having a first portion 134 parallel to the connecting channel base flange 124 and having a second portion extending past the support leg 126 being a “short lip” 136; and a rectangular shaped CC wire chase area 122 made up of: a first portion of the base flange 138, a bottom portion of the supporting leg 140, a portion of the second (right hand) 130 CC interior insulating panel element that is parallel to the base flange 124; and a fourth element 144 coupled on a first end to an end of the second 142 (right handed) portion of the interior insulating team support element parallel to the base flange 124.

The shape and some of the dimensions of the connecting channel 116 are dependent upon the thickness of the rigid insulation foam panels 120. The dimensions discussed below are based upon an insulating foam panel 120 that is 2.00 inches thick and are approximate. FIG. 2( b) illustrates exemplary dimensions for the connecting channel 116. The CC base flange 124 is 1.74 inches. The CC support leg 126 is 3.00 inches. Of those 3.00 inches, the area supporting a CC rigid insulated foam panel 120 is 2.00 inches. The two CC interior rigid insulation foam panel support elements are a total of 1.55 inches of which 0.80 inch is for the first portion 134 and 0.75 inch for the second portion 136. The CC exterior rigid insulated foam panel support flange 126 and its “short lip portion 138 is a total of 1.55 inches of which 0.13 inch represents the “short lip” portion 138. The CC wire chase area 122 is 0.24 inch wide and 0.91 inch high. The thickness of the elements of the connecting channel 116 is 0.09 inch.

FIG. 3( a) illustrates the profile of a multi-purpose channel (MPC) 118. The functions of the multi-purpose channel 116 are: provide support for a rigid insulation foam panel 118; provide for a MPC wire chase area 146; and provide for moisture protection of the plurality of rigid insulation foam panels 118. The elements of a multi-purpose channel 116 include a MPC base flange 148; a MPC support leg 150; a MPC interior insulating foam panel support element 152 fixed to the support leg 150 and near and parallel to the MPC base flange 148; a MPC exterior insulating foam panel support element 154 coupled to the MPC supporting leg 150 and parallel to the MPC base flange 148; and a rectangular MPC wire chase area 146 made up of a portion 158 of the MPC base flange 148; a lower portion of the MPC supporting leg 156; the interior rigid insulation panel element 152 and a fourth element 160 coupled on a first end to an end of the MPC interior insulating foam support element 152 and on the second end to the MPC base flange 148. The shape and some of the dimensions of the multi-purpose channel 114 are dependent upon the thickness of insulating foam panels 116. The shape of multi-purpose channel and the dimensions discussed below are based upon an insulating foam panel that is 2.00 inches thick. The principal difference between the connector channel and the multi-purpose channel is that the elements of the connector channel on the side opposite the wire chase area do not exist in the multi-purpose channel. This feature difference permits the multi-purpose channel to be used on the borders such as the top and the bottom of insulated panel system and with interfaces with a window or a door.

The shape and some of the dimensions of the multi-purpose channel (MPC) 116 are dependent upon the thickness of insulating foam panels 118. The dimensions discussed below are based upon an insulating foam panel 116 that is 2.00 inches thick and are approximate. FIG. 3( b) illustrates exemplary dimensions for the multi-purpose channel 116. The MPC base flange 148 is 1.72 inches. The MPC support leg 150 is 3.00 inches. Of the 3.00 inches, the area supporting an insulated foam panel 118 is 2.00 inches. The MPC interior rigid insulation foam panel support element 152 is 1.00 inches. The MPC exterior insulated foam panel support flange 154 is 1.25 inches. The wire chase area is 0.63 inch wide and 0.0.84 inch high. The thickness of the elements of connecting channel is 0.09 inch.

FIG. 4 illustrates the placement of the elements of an Insulated Wall System in the most basic configuration, one portion of a wall without and any end corners, windows or doors. The order of placement will be discussed further Installation Description portion below. A typical installation as illustrated in FIG. 4 has two multipurpose channels 116 and a plurality of connecting channels 116. A first multi-purpose channel 118 is located at the floor level (bottom of the wall) and supports a first layer of insulated foam panels 120. At this floor level multi-purpose channel 118 has the MPC base flange 148 of the multi-purpose channel 118 facing the wall with the MPC wire chase area 146 facing downward and butting against the floor. The second multi-purpose channel 118 is located at the ceiling level (top of the wall). With this ceiling level multi-purpose channel 118, the MPC base flange 148 of the channel is facing the wall with the MPC wire chase area 146 is facing upward and is butting against the ceiling.

The plurality of connecting channels 116 provide support for most of the plurality of layers of rigid insulation foam panels 120 between the two multi-purpose channels 116. These connecting channels 116 always have the base channel always facing the wall with the CC wire chase area 122 being in a lower part of the mounted connecting channel 116. The upward side of the CC supporting leg has the larger portion 134 of the exterior insulating panel support element and an upper portion of the interior rigid insulating panel support element 128 providing support for an upper insulating support panel. The lower side of the exterior rigid insulating foam panel support element 136 contains the “short lip” portion The lower portion of the interior rigid insulation foam panel support element 130 and the “short lip” 136 provides the snap ability of installing a rigid insulating foam panel. The installation discussion below will illustrate the reasons for these differences between the differences between the connecting channels and the multi-purpose channels.

Installation Description

Installation of an Insulated Wall System 100 is straight forward and economical if done in a systematic fashion. The tools and hardware need for such system include: Safety goggles; a plurality of 3/16″×1.00 masonry screws; construction adhesive; a plastic pipe saw or similar saw; a hammer drill; a level and square; a tape measure; a chalk-box; a utility knife; a plurality of rigid insulation panels; a plurality of connecting channels; and a plurality of multi-purpose channels. The first step of installing an Insulated Wall System (System) to an (concrete or CMU) existing wall is to remove all dust, dirt, and loose debris from the existing wall to which the System 100 will be applied. The skill level required is the skill by a competent home repair individual.

FIG. 5 illustrates the first step in the installation of an insulated wall system on a pair of walls 162 and 164 with an inside corner 166 between them. The installation is started by positioning a first multi-purpose channel 116 at the base of a first wall 162. The multi-purpose channel 116 is positioned up-against the bottom of the first wall 162 and starts by being held tight into the interior corner with the second wall 164. A second multi-purpose channel 1146 is positioned similarly on the adjacent wall (second wall) 164 and is allowed to “butt” into first multi-purpose channel 114. A plurality of multi-purpose channels(s) 114 are installed end-to-end around the perimeter of the wells. Adhesive is used to hold each horizontal multi-purpose channel against wall surfaces and on onto floor surface 168. Mechanical fasteners such as Tap-Con screws and masonry nails may also be used to secure the multi-purpose channels to the first and second walls 162 and 164. A plurality of multi-purpose channel(s) 118 are placed around the perimeter of walls 162 and 164 end-to-end to create a continuous application of multi-purpose channels that are fastened to the floor 166 using the described methods. This completes a first and bottom multi-purpose layer of multi-purpose channels 118.

FIG. 6 illustrates one or more rigid insulation panel(s) 120 being set into the plurality of multi-purpose channel(s) to begin the first layer of insulation. A plurality of rigid insulation foam panels 116 are placed around the perimeter of walls 162 and 164 end-to-end to create a continuous application of rigid insulation.

Next, as illustrated in FIG. 7, the plurality of connecting channels(s) 116 are now installed onto the top edge of the first layer of installed rigid insulation panel(s) 120. A first connector channel 116 is held tightly into the interior corner just as the first multi-purpose channel 116 was installed on the first wall 162. A second connector channel 118 is installed on the adjacent wall (second wall) 164 and is “butted” into the first installed connector channel 116. A plurality of connector channels 116 are subsequently installed end-to-end around the perimeter of each wall 162 and 164 and. The connector channels 116 may only be installed in one position. Due to its unique shape: a connector channel 116 has a single “base flange” 124 that mechanical fasteners must pass through in order to secure the horizontal connector stud to the wall. Therefore, the installer is sure to install it correctly. As illustrated in FIG. 8 the steps as described in FIG. 7 will continue until the last layer of rigid insulation foam panels 120 of the system is at top of wall height.

FIG. 9 illustrates that the last layer of rigid installation foam panels 116 is “capped” using a layer of a plurality of multi-purpose channels 118 which are positioned flush with the top of the walls 160 and 162 with the MPC base flange 148 fastened to the walls and the MPC wire chase area 146 facing downward. Adhesives and mechanical fasteners are also used to secure the top of wall multi-purpose channel to the wall. While standard sizes of the rigid insulation panels and standard length of connecting channels and multi-purpose channels, due dimensional limitation of the wall(s) to which an insulated wall system, cutting to fit may be required.

With the completion with the installation of the insulated wall system 100 as described above, a layer of finish board materials such as sheet rock can be installed over the insulated wall system.

FIGS. 10 through 15 illustrate the procedures for installing an Insulated Wall System 200: around an outside corner 202; around a window opening 204; around an inside corner; 206; and around a door opening 208 on three walls 210, 212, and 214.

Installation of the insulated wall system 200 around an outside corner 202 follows a procedure that is described in the parent application with regard to vertical channels used there. FIG. 10 illustrates the first step in the installation of an insulated wall system on a pair of walls 210 and 212 with an outside corner 202 between them. The installation is started by positioning a first multi-purpose channel 118 at the outside corner 202 of the second wall 214. The base flange 124 of the multi-purpose channel 118 is fastened to the outside corner 202 end of wall 2 212 with the MPC wire chase 146 end of the MPC base flange 148 flush with end outside corner of wall 2 212. The MPC base flange 148 of a second multi-purpose channel 118 is positioned up-against the MPC base flange 148 of the first multi-purpose channel with the two base flanges coincident, but the wire chase area not coincident. This arrangement provides a corner support for a plurality of rigid foam panels 120 to be installed later.

The installation of an insulated wall system around windows and doors follows similar steps as above and in the parent application. FIG. 10 illustrates the first steps for installing an insulated wall system 200 around window openings and door openings.

FIG. 10 illustrates an existing window opening 204 on wall 2 212. The first steps are to prepare the upper and lower horizontal edges of the window opening 204 with the installation of a pair multi-purpose channels 118. The upper horizontal edge of the window opening 204 has a first multi-purpose channel 118 installed sued that its MPC base flange 148 is positioned against wall 2 212 such that an open side of the MPC support leg 150 is facing downward and the MPC exterior rigid insulation support flange 154 and the interior rigid insulation support flange 152 are facing upward to support a rigid insulation foam panel 120.

The lower horizontal edge of the window opening has a second multi-purpose channel 118 installed such that its base flange MPC base flange 148 is positioned such that an open side of the MPC support leg 150 is facing upward and the exterior rigid insulation support flange 150 and the interior rigid insulation support flange 152 are facing downward to support a rigid insulation panel 120.

The left vertical edge of window opening has a third multi-purpose channel 118 installed such that its MPC base flange 148 is positioned such that an open side of the support leg 150 is facing rightward and the exterior rigid insulation support element 154 and the MPC interior rigid insulation support element 152 are facing leftward to support a rigid insulation panel 120. This is an example of a multi-purpose channel being mounted in a vertical direction.

The right vertical edge has a fourth multi-purpose channel 118 installed such that its MPC base flange 148 is positioned such that an open side of the MPC support leg 150 is facing rightward and the exterior rigid insulation support element 154 and the MPC interior rigid insulation support flange 152 are facing leftward to support a rigid insulation panel 120. This is a second example of a multi-purpose channel being mounted in a vertical direction.

FIG. 10 illustrates an existing door opening 208 on wall 3 214. The first step is to prepare the upper horizontal edge of the door opening 208 with the installation of a multi-purpose channel 118.

The upper horizontal edge of the door opening 208 has a first multi-purpose channel 118 installed such that its MPC base flange 148 is positioned such that an open side of the MPC support leg 150 is facing downward and the MPC exterior rigid insulation support flange 154 and the MPC interior rigid insulation support flange 124 are facing upward to support a rigid insulation panel 120.

The left vertical edge of the door opening 208 has a second multi-purpose channel 118 installed such that its MPC base flange 148 is positioned such that an open side of the support leg 150 is facing rightward and the MPC exterior rigid insulation support flange 154 and the MPC interior rigid insulation support flange 152 are facing leftward to support a rigid insulation panel 120. This is a third example of a multi-purpose channel being mounted in a vertical direction.

The light vertical edge of the door opening 208 has a third multi-purpose channel 118 installed such that its MPC base flange 148 is positioned such that an open side of the MPC support leg 150 is facing rightward and the MPC exterior rigid insulation support flange 154 and the MPC interior rigid insulation support flange 152 are facing leftward to support a rigid insulation panel 120. This is a fourth example of a multi-purpose channel being mounted in a vertical direction.

An additional preparatory step illustrated in FIG. 10 is the installation of multi-purpose channel 118 at the end of wall 3 214. The MPC base flange 148 of the multi-purpose channel is attached to wall 214 such that its MPC support leg 150 is flush with end of wall 2 214. In this way the multi-purpose channel 118 supports the plurality of rigid foam insulation panels 120 to be installed at the end of wall 3 214. This is a fifth example of a multi-purpose channel being mounted in a vertical direction.

FIG. 11 illustrates the use of multi-purpose channels 118 as a starter channel on Walls 1, 2, and 3 210, 212 and 214 at the floor level as was illustrated in FIG. 7.

In the case of wall 1, a first multi-purpose channel 118 is attached to the wall and is butted against the wall 1 210 side of the outside corner 202 multi-channel channels described above. The next step is the installation of a multi-purpose channel 118 between the (vertical) multi-purpose channel mounted on the left side of door opening on Wall 3 214 and the inside corner 206 between walls 2 212 and 3 214. The multi-purpose channel butt against the vertical multi-purpose channel and wall 2 212 at the inside corner 206. With regard to wall 2 212, a multi-purpose channel 118 on Wall 2 212 it is placed butt against the outside corner 202 multi-channel on the wall 1 side and placed butt against the multi-purpose channel 118 previously installed the wall 3 side.

The remaining step illustrated in FIG. 11 is the installation of a multi-purpose channel 118 between the vertically mounted multi-purpose channel 118 on the right hand side of the door opening 208 and the vertically mounted multi-purpose channel mounted at the end of wall 3 214.

FIG. 12 illustrates the installation of a first layer of rigid foam insulation panels 120 into the various multi-purpose channels 118 installed as described above. Each rigid foam insulation panel 120 is “snapped in” place with panel in place within the multi-purpose channels 118.

FIG. 13 illustrates the installation of connecting channels 116 to support the first layer of rigid insulation foam panels 120 installed as part of FIG. 12.

In the case of wall 1, a connecting channel 116 is attached to the wall and is butted against the wall 1 210 side of the outside corner 202 multi-purpose channels described above. The next step is the installation of a connector channel 116 between the (vertical) multi-purpose channel mounted on the left side of door opening on Wall 3 214 and the inside corner 206 between walls 2 212 and 3 214. The connector channel butted against the vertical multi-purpose channel and wall 2 212 at the inside corner 206. With regard to wall 2 212, a connector channel 116 on Wall 2 212 it is placed butt against the outside corner 202 multi-channel on the wall 1 side and placed butt against the multi-purpose channel 118 previously installed the wall 3 side.

The remaining step illustrated in FIG. 13 is the installation of a multi-purpose channel 118 between the vertically mounted multi-purpose channel 118 on the right hand side of the door opening 208 and the vertically mounted multi-purpose channel mounted at the end of wall 3 214.

FIG. 14 illustrates adding additional layers of connecting channels 116 and additional layers of rigid insulating foam panels 120. This procedure is complicated by the presence of the window opening 204 and the door opening 208.

With regard to wall 1 210, the installation the second layer of ridged insulated foam panel involves pushing the right vertical ends of the panels into the vertical multipurpose channel at the end of wall 210 and inserting in to first layer of connecting channels 116. The remaining portions of that wall require installation of the remaining layers of connecting channels 116 and the remaining layers of rigid insulation foam panels 120.

Wall 2 212 has the complication of the window opening 204. The first two layers of channels and panels as described above. The second layer of insulation panel area in the under the window multi-purpose channel 118 is inserted into the under the window multi-purpose channel 118. On both sides of the under window multi-purpose channel two connecting channels 116 are installed butting up to the under window multi-purpose channel 118 and also butt up to the multi-purpose channel on wall 212 at the outer corner 202 on the left. On the right side of the window, a connecting channel 116 is trimmed so that it butt up against a connecting channel to be installed on wall 3 214.

The next two layers of insulation panels and connecting channels 116 are inserted between the vertical multi-purpose channels on both sides of the window opening 204 and the left side vertical multi-purpose channel and the connecting channels 116 to be installed later as described above.

The next layer of may be a single or a combination of rigid insulation foam channels 120 shaped to wrap around be installed into: the left hand side connecting channel 116; the multi-purpose channel 118 on the left side of the window opening 204; the multi-purpose channel 118 on the top of the window opening; the multi-purpose channel 118 on the right side of the window opening 204; and the right hand side connecting channel 116.

With regard to wall 3 214 with its door opening 206, some of the complications of the door opening are present here.

At this point, wall 3 214 has a first layer of rigid insulated foam panels 120 and a first layer of connecting channels 116. The same procedures used for these layers is used for the plurality of layers up to the potential layer at the top of the door opening 208. This layer of rigid insulated foam panel at the top of the door opening 208 of may be a single or a combination of rigid insulation foam channels 120 shaped to wrap around be installed into: the left hand side connecting channel 116; the multi-purpose channel 118 on the left side of the door opening 208; the multi-purpose channel 118 on the top of the door opening 208; the multi-purpose channel 118 on the right side of the door opening 208; and the right hand side connecting channel 116.

The remaining layer of connecting channel on wall 3 is mounted onto the layer of insulated foam that was wrapped around the door opening 208. This is followed by the installation of a top layer of rigid insulated foam channel mounted on the last connecting channel on wall 3 214.

As in FIG. 9, FIG. 15 illustrates that the last layer of rigid installation foam panels 116 is “capped” using a layer of a plurality of multi-purpose channels 118 which are positioned flush with the top of the walls 210, 212, and 214 with the MPC base flange 148 fastened to the walls and the MPC wire chase area 146 facing downward.

Adhesives and mechanical fasteners are also used to secure the top of wall multi-purpose channel to the wall. While standard sizes of the rigid insulation panels and standard length of connecting channels and multi-purpose channels, due dimensional limitation of the wall(s) to which an insulated wall system, cutting to fit may be required.

With the completion with the installation of the insulated wall system 200 as described above, a layer of finish board materials such as sheet rock can be installed over the insulated wall system.

Various modifications to the embodiments of the resent invention will become apparent to those skilled in the art from the foregoing description and accompanying drawings. Accordingly, the present invention is to be limited solely by the scope of the following claims. 

1. An insulated wall system comprising: a. a plurality of horizontally mounted connecting channels; b. a plurality of horizontally mounted multi-purpose channels; c. a plurality of horizontally installed insulation panels; d. wherein said channels are mounted to a wall; f. further wherein said horizontally installed insulation panels are vertically coupled to a pair of channels.
 2. The system of claim 1 wherein said plurality of insulation panels are vertically coupled to a pair of connecting channels and/or vertically coupled to a pair of channels comprising a multi-purpose channel and a connecting channel.
 3. The system of claim 2 wherein said horizontally mounted connecting channels and horizontally mounted multi-purpose channels are glued to said wall.
 4. The system of claim 2 wherein said horizontally mounted connecting channels and horizontally mounted multi-purpose channels are mechanically fastened to said wall.
 5. The system of claim 2 comprises: horizontal layers of insulated foam panels with a bottom of a plurality of insulated foam panels at a bottom of a bottom layer being at a bottom of said wall and coupled to a plurality of multi-purpose channels with each multi-purpose channel and said insulating panel pair butting against a neighboring multi-purpose channel and insulating panel pair.
 6. The system of claim 2 comprises: horizontal layers of insulated foam panels with a top of a plurality of insulated foam panels at a top of a bottom layer being at a bottom of said wall and coupled to a plurality of connector channels with each multi-purpose channel and said insulating panel pair butting against a neighboring connecting channel and insulating panel pair.
 7. The system of claim 2 comprising: a plurality of layers each with a plurality of insulated foam panels in between a top layer and a bottom layer; a top of each insulted foam panel within a layer is coupled to each of a first plurality of connecting channels; a bottom of each insulated foam panel within a layer is coupled to each of a second plurality of connecting channels; and with each connecting channel and said insulating panel pair butting against a neighboring connecting channel and insulating panel pair.
 8. The system of claim 2 comprises: horizontal layers of insulated foam panels with a bottom of a plurality of insulated foam panels at a bottom of a bottom layer being at a bottom of said wall and coupled to a plurality of multi-purpose channels with each multi-purpose channel and said insulating panel pair butting against a neighboring multi-purpose channel and insulating panel pair.
 9. The system of claim 8 wherein a connecting channel and/or one or more use multi-purpose channels are used to form a corner within said wall system.
 10. The system of claim 8 wherein said system is mounted on to an interior wall.
 12. The system of claim 8 wherein said system is mounted on to an exterior wall.
 13. The system of claim 8 wherein said wall is made of concrete.
 14. The system of claim 8 wherein said wall is a concrete masonry unit constructed wall.
 15. The system of claim 8 wherein said insulation panels are made of materials selected from the group consisting of Expanded Polystyrene, Extruded Polystyrene, or Polyisocyanurate, Mineral board, rock-wool or Fiberglass.
 16. The system of claim 8 wherein said insulation panels are up to 24″ in width, 2″ in depth and a length of up to 96″ or a length governed by a height of said wall.
 17. The system of claim 8 comprises a series of sections further comprising sections of continuous channeling and insulation panels.
 18. The system of claim 8 wherein said system as mounted to said wall includes an air space between said one or more insulation panels and said wall.
 19. The system of claim 8 comprising one or more wire chases within each of said one or more channels.
 20. The system of claim 8 comprising one or more outer corner subsystems further comprising: a. a pair of multi-purpose channels.
 21. A channel comprising: a. a top portion; b. a supporting leg; c. a wall mounting portion; d. a chase portions; e e. a pair of rigid insulated foam panels support areas; and f. a moisture protection area g. wherein said channels provide support for said rigid insulated foam panels, provide one or more wire chase areas and protect said insulation panels from moisture.
 22. The channel of claim 21 comprising: a. a connecting channel that provides support of up to two insulation panels and further comprises; b. two insulation panel support areas for supporting up to two insulation panels; c. said wire chase area; d. said moisture protection areas.
 23. The channel of claim 1 comprising: a. a multi-purpose channel that supports one insulation panel and provides a corner structure for a wall system and b. further comprises; one insulation panel support area supporting a single insulation panel; c. one said ware chase area; and d., one said moisture protection area.
 24. A kit of parts for the insulated wall system of claim 1 comprising: a. a plurality of connecting channels; b. a plurality of multi-purpose channels; c. wherein said parts are combined with user supplied one or more insulation panels for installation on or as part of a wall.
 25. A kit of parts for the insulated wall system of claim 1 comprising; a. a plurality of connecting channels; b. a plurality of multi-purpose channels; and c. one or more rigid insulation foam insulation panels; d. wherein said parts are combined for installation on a wall or as part of a wall. 